This paper describes the development of a new dissolved air flotation (DAF) separator with a flow streamlining baffle to improve solid separation efficiency. The analysis of the RTD (residence time distribution) curves indicated that the parameter θ10 (dimensionless time at which 10% of tracer has discharged) increased from 0.38 for control reactor to 0.54 for the test reactor, suggesting significant reduction in short circuit flow. The RTD curves were also used to develop a compartment model for white water (rich in micro-bubbles and water flow is turbulent) and clear water (little or no air content and water flow is quiescent) zones in the reactor using a series of CSTR (continuous stirred tank reactors) and plug flow regime respectively. The proportion of the volume occupied by the white water zone was different in control and test configurations. In the test reactor, the fraction of the clear water zone was found to increase from 6 to 37%, resulting in improvement of the suspended solid (SS) removal efficiency from 97 to 99%.
Tracer experiment and RTD analysis of DAF separator with bar-type baffles
M. Terashima, M. Iwasaki, H. Yasui, R. Goel, K. Suto, C. Inoue; Tracer experiment and RTD analysis of DAF separator with bar-type baffles. Water Sci Technol 1 March 2013; 67 (5): 942–947. doi: https://doi.org/10.2166/wst.2013.584
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